Vitreous Fluorophotometry for Clinical Research
- 1 November 1983
- journal article
- research article
- Published by American Medical Association (AMA) in Archives of Ophthalmology (1950)
- Vol. 101 (11), 1757-1761
- https://doi.org/10.1001/archopht.1983.01040020759020
Abstract
• Several methods of data analysis permit improved evaluation of the blood-retinal barrier (BRB) by vitreous fluorophotometry. With the use of an algorithm for artifact correction, tested in vivo in situations in which large artifacts are expected, artifacts were reduced to less than the equivalent of 1 ng/mL in normal eyes 3 mm from the chorioretinal and lens peaks. A procedure developed to evaluate the lens transmittance was found to have a 12% reproducibility. In addition, the anterior and posterior sources of leakage could be separated by choosing the appropriate time of measurement after injection of the dye. Moreover, a procedure to estimate quantitatively the inward permeability of the BRB yielded a preliminary estimate of 7.2 × 10-8cm/snornor-subjects.This publication has 8 references indexed in Scilit:
- Outward Transport of Fluorescein From the Vitreous in Normal Human SubjectsArchives of Ophthalmology (1950), 1983
- Measurement of Fluorescein Binding in Human Plasma Using Fluorescence PolarizationArchives of Ophthalmology (1950), 1982
- Fluorescein Binding to Normal Human Serum Proteins Demonstrated by Equilibrium DialysisArchives of Ophthalmology (1950), 1982
- FLUORESCENCE INTENSITY PROFILE OF HUMAN LENS SECTIONS1981
- PHARMACOKINETICS OF FLUORESCEIN IN THE VITREOUS1981
- Density of human lens pigmentation:In vivo measures over an extended age rangeVision Research, 1972
- The active transport of fluorescein by the retinal vessels and the retinaThe Journal of Physiology, 1967
- The Variation with Age of the Spectral Transmissivity of the Living Human Crystalline LensGerontology, 1959